2.3.2 spase://NOAA/NumericalData/POES/16/SEM-2/CDF/PT2S NOAA 16 POES Space Environment Monitor-2 (SEM-2) 2-second Particle Precipitation Data 2021-04-27T17:52:57Z POES-SEM2>POES-Space Environment Monitor 2 POES N19 Data: POES/MetOp: Particle Precipitation Data, these Data have known Contamination Problems, Please consult the Data Provider, Rob Redmon, at rob.redmon@noaa.gov, for Usage Recommendations NGDC, SWPC spase://SMWG/Person/R.Bushnell PrincipalInvestigator spase://SMWG/Person/Robert.Redmon DataProducer spase://SMWG/Person/Robert.E.McGuire MetadataContact spase://SMWG/Person/Lee.Frost.Bargatze MetadataContact Archive and Instrument Documentation at NOAA National Geophysical Data Center (NGDC) https://www.ngdc.noaa.gov/stp/satellite/poes/ Primary POES MEPED Telescope Data Processing Algorithm Theoretical Basis Document, Section 2.2.1 https://www.ngdc.noaa.gov/stp/satellite/poes/docs/NGDC/MEPED%20telescope%20processing%20ATBD_V1.pdf For further Details on MEPED Contamination Issues, See the spase://VSPO/NumericalData/NOAA/16/SEM-2/PT2S spase://SMWG/Repository/NASA/GSFC/SPDF Online Open FTPS from SPDF (not with most browsers) ftps://spdf.gsfc.nasa.gov/pub/data/noaa/noaa16/sem2_fluxes-2sec/ In CDF via ftp from SPDF. HTTPS from SPDF https://spdf.gsfc.nasa.gov/pub/data/noaa/noaa16/sem2_fluxes-2sec/ In CDF via http from SPDF. CDAWeb https://cdaweb.gsfc.nasa.gov/cgi-bin/eval2.cgi?dataset=NOAA16_POES-SEM2_FLUXES-2SEC&index=sp_phys NOAA16_POES-SEM2_FLUXES-2SEC Access to ASCII, CDF, and plots via NASA/GSFC CDAWeb CDF None NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. spase://SMWG/Repository/NASA/GSFC/SPDF Online Open CDAWeb HAPI Server https://cdaweb.gsfc.nasa.gov/hapi NOAA16_POES-SEM2_FLUXES-2SEC Web Service to this product using the HAPI interface. CSV NGDC, SWPC. Please acknowledge the data providers and CDAWeb when using these data. Calibrated spase://SMWG/Instrument/NOAA/16/SEM-2 EnergeticParticles 2013-01-01T00:00:00.000 2014-06-06T23:59:59.999 PT2S Earth.Magnetosheath Earth.Magnetosphere.Polar Earth.NearSurface Earth.NearSurface.AuroralRegion Earth.NearSurface.EquatorialRegion Earth.NearSurface.Ionosphere Earth.NearSurface.PolarCap Epoch Epoch Default Time This parameter exhibits an increasing monotonic progression. PT2S ns 1e-9>s Epoch LinearScale 1990-01-01T00:00:00.000000000 2029-12-31T23:59:59.999000000 9999-12-31T23:59:59.999999999 Temporal Time time Date and Time for each Observation PT2S ms 1e-3>s 0.0 0.0 -2.14748e+09 Temporal Year year Year, 4 Digit PT2S year 3.1536e7>s 0.0 0.0 -2.14748e+09 Temporal Day of Year day Day of Year, 3 Digit PT2S d 86400>s^-1 0.0 0.0 -2.14748e+09 Temporal Milliseconds of Day msec Milliseconds of the Day PT2S ms 1e-3>s 0.0 0.0 -2.14748e+09 Temporal Electron Differential Flux, 0° Telescope Time series defined by using: EPOCH ted_ele_flux_stackt0 Total Energy Detector, TED, Electron Differential Flux, 0° Telescope, 189 eV to 7980 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Electron Differential Flux, 30° Telescope Time series defined by using: EPOCH ted_ele_flux_stackt30 Total Energy Detector, TED, Electron Differential Flux, 30° Telescope, 189 eV to 7980 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Electron Differential Flux, 189 keV Time series defined by using: EPOCH ted_ele_flux_t_stacke1 Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Electron Differential Flux, 844 keV Time series defined by using: EPOCH ted_ele_flux_t_stacke2 Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Electron Differential Flux, 2595 keV Time series defined by using: EPOCH ted_ele_flux_t_stacke3 Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Electron Differential Flux, 7980 keV Time series defined by using: EPOCH ted_ele_flux_t_stacke4 Total Energy Detector, TED, Electron Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_ele_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Electron Differential Flux, Spectrograms Time series defined by using: EPOCH ted_ele_flux Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 Spectrogram E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Electron Differential Energies ted_ele_diff_energies Total Energy Detector, TED, Electron Differential Energies PT2S eV 1.60218e-19>J E12.4 4 Element 1 1 Element 2 2 Element 3 3 Element 4 4 100.0 10000.0 -1.0e+31 Electron Scalar Energy Telescope Direction ted_telescopes Total Energy Detector, TED, Telescope Directions, 0° and 30° PT2S E12.2 LinearScale 2 Element 1 1 Element 2 2 0.0 30.0 -1.0e+31 Other Proton Differential Flux, 0° Telescope Time series defined by using: EPOCH ted_pro_flux_stackt0 Total Energy Detector, TED, Proton Differential Flux, 0° Telescope, 189 eV to 7980 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Proton Differential Flux, 30° Telescope Time series defined by using: EPOCH ted_pro_flux_stackt30 Total Energy Detector, TED, Proton Differential Flux, 30° Telescope, 189 eV to 7980 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Proton Differential Flux, 189 keV Time series defined by using: EPOCH ted_pro_flux_t_stacke1 Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E1, 189 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Proton Differential Flux, 844 keV Time series defined by using: EPOCH ted_pro_flux_t_stacke2 Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E2, 844 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Proton Differential Flux, 2595 keV Time series defined by using: EPOCH ted_pro_flux_t_stacke3 Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E3, 2595 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Proton Differential Flux, 7980 keV Time series defined by using: EPOCH ted_pro_flux_t_stacke4 Total Energy Detector, TED, Proton Differential Flux, 0° and 30° Telescopes, Channel E4, 7980 eV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: ted_pro_flux. PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Proton Differential Flux, Spectrograms, 189 eV to 7980 eV Time series defined by using: EPOCH ted_pro_flux Column 1 Labels: [ 0.00000, 30.0000] Column 2 Labels: [ 189.000, 844.000, 2595.00, 7980.00] PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 Spectrogram E12.2 2 4 -1.0e+31 Electron Scalar Differential NumberFlux Proton Differential Energies ted_pro_diff_energies Total Energy Detector, TED, Proton Differential Energies PT2S eV 1.60218e-19>J E12.4 4 Element 1 1 Element 2 2 Element 3 3 Element 4 4 100.0 10000.0 -1.0e+31 Proton Scalar Energy Electron Integral Energy Flux, 0° Telescope, Low Energy Time series defined by using: EPOCH ted_ele_tel0_low_eflux Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T0deg_LowE_Elec_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Electron Scalar Integral EnergyFlux Electron Integral Energy Flux, 30° Telescope, Low Energy Time series defined by using: EPOCH ted_ele_tel30_low_eflux Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T30deg_LowE_Elec_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Electron Scalar Integral EnergyFlux Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error Time series defined by using: EPOCH ted_ele_tel0_low_eflux_error Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV PT2S TimeSeries TED_T0deg_LowE_Elec_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Electron Scalar Integral Uncertainty EnergyFlux Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error Time series defined by using: EPOCH ted_ele_tel30_low_eflux_error Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV PT2S TimeSeries TED_T0deg_LowE_Elec_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Electron Scalar Integral Uncertainty EnergyFlux Electron Integral Energy Flux, 0° Telescope, High Energy Time series defined by using: EPOCH ted_ele_tel0_hi_eflux Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T0deg_HiE_Elec_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Electron Scalar Integral EnergyFlux Electron Integral Energy Flux, 30° Telescope, High Energy Time series defined by using: EPOCH ted_ele_tel30_hi_eflux Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T30deg_HiE_Elec_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Electron Scalar Integral EnergyFlux Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error Time series defined by using: EPOCH ted_ele_tel0_hi_eflux_error Total Energy Detector, TED, Electron Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV PT2S TimeSeries TED_T0deg_HiE_Elec_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Electron Scalar Integral Uncertainty EnergyFlux Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error Time series defined by using: EPOCH ted_ele_tel30_hi_eflux_error Total Energy Detector, TED, Electron Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV PT2S TimeSeries TED_T30deg_HiE_Elec_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Electron Scalar Integral Uncertainty EnergyFlux Proton Integral Energy Flux, 0° Telescope, Low Energy Time series defined by using: EPOCH ted_pro_tel0_low_eflux Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T0deg_LowE_Prtn_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Proton Scalar Integral EnergyFlux Proton Integral Energy Flux, 30° Telescope, Low Energy Time series defined by using: EPOCH ted_pro_tel30_low_eflux Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T30deg_LowE_Prtn_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Proton Scalar Integral EnergyFlux Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error Time series defined by using: EPOCH ted_pro_tel0_low_eflux_error Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV PT2S TimeSeries TED_T0deg_LowE_Prtn_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Proton Scalar Integral Uncertainty EnergyFlux Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error Time series defined by using: EPOCH ted_pro_tel30_low_eflux_error Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, Low Energy, Percent Error, 50 eV to 1000 eV PT2S TimeSeries TED_T30deg_LowE_Prtn_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Proton Scalar Integral Uncertainty EnergyFlux Proton Integral Energy Flux, 0° Telescope, High Energy Time series defined by using: EPOCH ted_pro_tel0_hi_eflux Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T0deg_HiE_Prtn_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Proton Scalar Integral EnergyFlux Proton Integral Energy Flux, 30° Telescope, High Energy Time series defined by using: EPOCH ted_pro_tel30_hi_eflux Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries TED_T30deg_HiE_Prtn_EngyFlux E12.2 -200.0 200.0 -1.0e+31 Proton Scalar Integral EnergyFlux Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error Time series defined by using: EPOCH ted_pro_tel0_hi_eflux_error Total Energy Detector, TED, Proton Integral Energy Flux, 0° Telescope, High Energy, Percent Error, 1 keV to 20 keV PT2S TimeSeries TED_T0deg_HiE_Prtn_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Proton Scalar Integral Uncertainty EnergyFlux Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error Time series defined by using: EPOCH ted_pro_tel30_hi_eflux_error Total Energy Detector, TED, Proton Integral Energy Flux, 30° Telescope, High Energy, Percent Error, 1 keV to 20 keV PT2S TimeSeries TED_T30deg_HiE_Prtn_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Proton Scalar Integral Uncertainty EnergyFlux Electron Atmospheric Integral Energy Flux, Low Energy Time series defined by using: EPOCH ted_ele_eflux_atmo_low Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV PT2S mW/m^2 1e-3>W/m^2 TimeSeries TED_Atmo_LowE_Elec_EngyFlux E12.2 -6400.0 6400.0 -1.0e+31 Electron Scalar Integral EnergyFlux Electron Atmospheric Integral Energy Flux, High Energy Time series defined by using: EPOCH ted_ele_eflux_atmo_hi Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, 1 keV to 20 keV PT2S mW/m^2 1e-3>W/m^2 TimeSeries TED_Atmo_HiE_Elec_EngyFlux E12.2 -6400.0 6400.0 -1.0e+31 Electron Scalar Integral EnergyFlux Electron Atmospheric Integral Energy Flux, Low Energy, Percent Error Time series defined by using: EPOCH ted_ele_eflux_atmo_low_err Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV PT2S TimeSeries TED_Atmo_LowE_Elec_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Electron Scalar Integral Uncertainty EnergyFlux Electron Atmospheric Integral Energy Flux, High Energy, Percent Error Time series defined by using: EPOCH ted_ele_eflux_atmo_hi_err Total Energy Detector, TED, Electron Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 1 keV to 20 keV PT2S TimeSeries TED_Atmo_HiE_Elec_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Electron Scalar Integral Uncertainty EnergyFlux Electron Total Atmospheric Integral Energy Flux Time series defined by using: EPOCH ted_ele_eflux_atmo_total Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km PT2S mW/m^2 1e-3>W/m^2 TimeSeries TED_Atmo_Total_Elec_EngyFlux E12.2 -12800.0 6400.0 -1.0e+31 Electron Scalar Integral EnergyFlux Electron Total Atmospheric Integral Energy Flux, Percent Error Time series defined by using: EPOCH ted_ele_eflux_atmo_total_err Total Energy Detector, TED, Electron Total Atmospheric Integral Energy Flux at 120 km, Percent Error PT2S TimeSeries TED_Atmo_Total_Elec_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Electron Scalar Integral Uncertainty EnergyFlux Proton Atmospheric Integral Energy Flux, Low Energy Time series defined by using: EPOCH ted_pro_eflux_atmo_low Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, 50 eV to 1000 eV PT2S mW/m^2 1e-3>W/m^2 TimeSeries TED_Atmo_LowE_Prtn_EngyFlux E12.2 -6400.0 6400.0 -1.0e+31 Proton Scalar Integral EnergyFlux Proton Atmospheric Integral Energy Flux, High Energy Time series defined by using: EPOCH ted_pro_eflux_atmo_hi Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, 1 keV to 20 keV PT2S mW/m^2 1e-3>W/m^2 TimeSeries TED_Atmo_HiE_Prtn_EngyFlux E12.2 -6400.0 6400.0 -1.0e+31 Proton Scalar Integral EnergyFlux Proton Atmospheric Integral Energy Flux, Low Energy, Percent Error Time series defined by using: EPOCH ted_pro_eflux_atmo_low_err Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, Low Energy, Percent Error, 50 eV to 1000 eV PT2S TimeSeries TED_Atmo_LowE_Prtn_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Proton Scalar Integral Uncertainty EnergyFlux Proton Atmospheric Integral Energy Flux, High Energy, Percent Error Time series defined by using: EPOCH ted_pro_eflux_atmo_hi_err Total Energy Detector, TED, Proton Atmospheric Integral Energy Flux at 120 km, High Energy, Percent Error, 1 keV to 20 keV PT2S TimeSeries TED_Atmo_HiE_Prtn_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Proton Scalar Integral Uncertainty EnergyFlux Proton Total Atmospheric Integral Energy Flux Time series defined by using: EPOCH ted_pro_eflux_atmo_total Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km PT2S mW/m^2 1e-3>W/m^2 TimeSeries TED_Atmo_Total_Prtn_EngyFlux E12.2 -12800.0 6400.0 -1.0e+31 Proton Scalar Integral EnergyFlux Proton Total Atmospheric Integral Energy Flux, Percent Error Time series defined by using: EPOCH ted_pro_eflux_atmo_total_err Total Energy Detector, TED, Proton Total Atmospheric Integral Energy Flux at 120 km, Percent Error PT2S TimeSeries TED_Atmo_Total_Prtn_EngyFlux%Err F7.2 0.01 10000.0 -1.0e+31 Proton Scalar Integral Uncertainty EnergyFlux Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km Time series defined by using: EPOCH ted_total_eflux_atmo Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km PT2S mW/m^2 1e-3>W/m^2 TimeSeries ted_total_eflux_atmo E12.2 LinearScale -25600.0 25600.0 -1.0e+31 Electron Proton Scalar Integral EnergyFlux Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error Time series defined by using: EPOCH ted_total_eflux_atmo_err Total Energy Detector, TED, Electron and Proton Total Atmospheric Integral Energy Flux, at 120 km, Percent Error PT2S mW/m^2 1e-3>W/m^2 TimeSeries ted_total_eflux_atmo_err F7.2 0.01 10000.0 -1.0e+31 Electron Proton Scalar Integral Uncertainty EnergyFlux Electron Characteristic Energy Channel, 0° Telescope Time series defined by using: EPOCH ted_ele_energy_tel0 Total Energy Detector, TED, Electron Characteristic Energy Channel, 0° Telescope PT2S TimeSeries ted_ele_CharEnergy_tel0 I4 LinearScale 0 15 255 Other Electron Characteristic Energy Channel, 30° Telescope Time series defined by using: EPOCH ted_ele_energy_tel30 Total Energy Detector, TED, Electron Characteristic Energy Channel, 30° Telescope PT2S TimeSeries ted_ele_CharEnergy_tel30 I4 LinearScale 0 15 255 Other Proton Characteristic Energy Channel, 0° Telescope Time series defined by using: EPOCH ted_pro_energy_tel0 Total Energy Detector, TED, Proton Characteristic Energy Channel, 0° Telescope PT2S TimeSeries ted_pro_CharEnergy_tel0 I4 LinearScale 0 15 255 Other Proton Characteristic Energy Channel, 30° Telescope Time series defined by using: EPOCH ted_pro_energy_tel30 Total Energy Detector, TED, Proton Characteristic Energy Channel, 30° Telescope PT2S TimeSeries ted_pro_CharEnergy_tel30 I4 LinearScale 0 15 255 Other Electron Maximum Differential Flux, 0° Telescope Time series defined by using: EPOCH ted_ele_max_flux_tel0 Total Energy Detector, TED, Electron Maximum Differential Flux, 0° Telescope PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 TimeSeries ted_ele_max_flux_tel0 E12.2 0.0 4.0e+09 -1.0e+31 Electron Scalar Maximum Differential NumberFlux Electron Maximum Differential Flux, 30° Telescope Time series defined by using: EPOCH ted_ele_max_flux_tel30 Total Energy Detector, TED, Electron Maximum Differential Flux, 30° Telescope PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 TimeSeries ted_ele_max_flux_tel30 E12.2 0.0 4.0e+09 -1.0e+31 Electron Scalar Maximum Differential NumberFlux Proton Maximum Differential Flux, 0° Telescope Time series defined by using: EPOCH ted_pro_max_flux_tel0 Total Energy Detector, TED, Proton Maximum Differential Flux, 0° Telescope PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 TimeSeries ted_pro_max_flux_tel0 E12.2 0.0 4.0e+09 -1.0e+31 Proton Scalar Maximum Differential NumberFlux Proton Maximum Differential Flux, 30° Telescope Time series defined by using: EPOCH ted_pro_max_flux_tel30 Total Energy Detector, TED, Proton Maximum Differential Flux, 30° Telescope PT2S (cm^2 s sr eV)^-1 6.24161e22>(m^2 s sr J)^-1 TimeSeries ted_pro_max_flux_tel30 E12.2 0.0 4.0e+09 -1.0e+31 Proton Scalar Maximum Differential NumberFlux Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV Time series defined by using: EPOCH ted_ele_eflux_bg_tel0_low Total Energy Detector, TED, Electron Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_ele_eflux_bg_tel0_low E12.2 0.0 200.0 -1.0e+31 Electron Scalar Minimum Integral EnergyFlux Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV Time series defined by using: EPOCH ted_ele_eflux_bg_tel30_low Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_ele_eflux_bg_tel30_lo E12.2 0.0 200.0 -1.0e+31 Electron Scalar Minimum Integral EnergyFlux Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV Time series defined by using: EPOCH ted_ele_eflux_bg_tel0_hi Total Energy Detector, TED, Electron Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_ele_eflux_bg_tel0_hi E12.2 0.0 200.0 -1.0e+31 Electron Scalar Minimum Integral EnergyFlux Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV Time series defined by using: EPOCH ted_ele_eflux_bg_tel30_hi Total Energy Detector, TED, Electron Background Integral Energy Flux, 330° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_ele_eflux_bg_tel30_hi E12.2 0.0 200.0 -1.0e+31 Electron Scalar Minimum Integral EnergyFlux Proton Background Integral Energy Flux, 0° Telescope, Low Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel0_low Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_pro_eflux_bg_tel0_low E12.2 0.0 200.0 -1.0e+31 Proton Scalar Minimum Integral EnergyFlux Proton Background Integral Energy Flux, 30° Telescope, Low Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel30_low Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, Low Energy, 50 eV to 1000 eV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_pro_eflux_bg_tel30_low E12.2 0.0 200.0 -1.0e+31 Proton Scalar Minimum Integral EnergyFlux Proton Background Integral Energy Flux, 0° Telescope, High Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel0_hi Total Energy Detector, TED, Proton Background Integral Energy Flux, 0° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_pro_eflux_bg_tel0_hi E12.2 0.0 200.0 -1.0e+31 Proton Scalar Minimum Integral EnergyFlux Proton Background Integral Energy Flux, 30° Telescope, High Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel30_hi Total Energy Detector, TED, Proton Background Integral Energy Flux, 30° Telescope, High Energy, 1 keV to 20 keV PT2S mW/(m^2 sr) 1e-3>W/(m^2 sr) TimeSeries ted_pro_eflux_bg_tel30_hi E12.2 0.0 200.0 -1.0e+31 Proton Scalar Minimum Integral EnergyFlux Electron Background Counts, 0° Telescope, Low Energy Time series defined by using: EPOCH ted_ele_eflux_bg_tel0_low_cps Total Energy Detector, TED, Electron Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV PT2S TimeSeries ted_ele_eflux_bg_tel0_0.05-1keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Electron Scalar Minimum Counts Electron Background Counts, 30° Telescope, Low Energy Time series defined by using: EPOCH ted_ele_eflux_bg_tel30_low_cps Total Energy Detector, TED, Electron Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV PT2S TimeSeries ted_ele_eflux_bg_tel30_0.05-1keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Electron Scalar Minimum Counts Electron Background Counts, 0° Telescope, High Energy Time series defined by using: EPOCH ted_ele_eflux_bg_tel0_hi_cps Total Energy Detector, TED, Electron Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV PT2S TimeSeries ted_ele_eflux_bg_tel0_1-20keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Electron Scalar Minimum Counts Electron Background Counts, 30° Telescope, High Energy Time series defined by using: EPOCH ted_ele_eflux_bg_tel30_hi_cps Total Energy Detector, TED, Electron Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV PT2S TimeSeries ted_ele_eflux_bg_tel30_1-20keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Electron Scalar Minimum Counts Proton Background Counts, 0° Telescope, Low Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel0_low_cps Total Energy Detector, TED, Proton Background Counts, 0° Telescope, Low Energy, 50 eV to 1000 eV PT2S TimeSeries ted_pro_eflux_bg_tel0_0.05-1keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Proton Scalar Minimum Counts Proton Background Counts, 30° Telescope, Low Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel30_low_cps Total Energy Detector, TED, Proton Background Counts, 30° Telescope, Low Energy, 50 eV to 1000 eV PT2S TimeSeries ted_pro_eflux_bg_tel30_0.05-1keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Proton Scalar Minimum Counts Proton Background Counts, 0° Telescope, High Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel0_hi_cps Total Energy Detector, TED, Proton Background Counts, 0° Telescope, High Energy, 1 keV to 20 keV PT2S TimeSeries ted_pro_eflux_bg_tel0_1-20keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Proton Scalar Minimum Counts Proton Background Counts, 30° Telescope, High Energy Time series defined by using: EPOCH ted_pro_eflux_bg_tel30_hi_cps Total Energy Detector, TED, Proton Background Counts, 30° Telescope, High Energy, 1 keV to 20 keV PT2S TimeSeries ted_pro_eflux_bg_tel30_1-20keV_cps E12.2 0.0 1.99885e+06 -1.0e+31 Proton Scalar Minimum Counts Pitch Angle, Satellite, 0° Telescope Time series defined by using: EPOCH ted_alpha_0_sat Total Energy Detector, TED, Pitch Angle, Satellite, 0° Telescope PT2S ° 0.0174532925>rad TimeSeries ted_alpha_0_sat E12.2 LinearScale 0.0 180.0 -1.0e+31 Other Pitch Angle, Satellite, 30° Telescope Time series defined by using: EPOCH ted_alpha_30_sat Total Energy Detector, TED, Pitch Angle, Satellite, 30° Telescope PT2S ° 0.0174532925>rad TimeSeries ted_alpha_30_sat E12.2 LinearScale 0.0 180.0 -1.0e+31 Other Pitch Angle, Footpoint, 0° Telescope Time series defined by using: EPOCH ted_alpha_0_foot Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 0° Telescope PT2S ° 0.0174532925>rad TimeSeries ted_alpha_0_foot E12.2 LinearScale 0.0 180.0 -1.0e+31 Other Pitch Angle, Footpoint, 30° Telescope Time series defined by using: EPOCH ted_alpha_30_foot Total Energy Detector, TED, Pitch Angle, Footpoint of Field Line, 30° Telescope PT2S ° 0.0174532925>rad TimeSeries ted_alpha_30_foot E12.2 LinearScale 0.0 180.0 -1.0e+31 Other TED IFC Flag Time series defined by using: EPOCH ted_ifc_on Total Energy Detector, TED, In-Flight Calibrator, IFC, Flag: 0=Off, 1=On PT2S TimeSeries ted_IFC_on I4 LinearScale 0 1 255 InstrumentMode Electron Integral Flux, 0#176; Telescope Time series defined by using: EPOCH mep_ele_flux_stackt0 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, >40 keV to >612 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Integral NumberFlux Electron Integral Flux, 0#176; Telescope, Percent Error Time series defined by using: EPOCH mep_ele_flux_err_stackt0 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; Telescope, Percent Error, >40 keV to >612 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. PT2S E12.2 2 4 -1.0e+31 Electron Scalar Integral Uncertainty NumberFlux Electron Integral Flux, 90#176; Telescope Time series defined by using: EPOCH mep_ele_flux_stackt90 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, >40 keV to >612 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Integral NumberFlux Electron Integral Flux, 90#176; Telescope, Percent Error Time series defined by using: EPOCH mep_ele_flux_err_stackt90 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 90#176; Telescope, Percent Error, >40 keV to >612 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux_err. PT2S E12.2 2 4 -1.0e+31 Electron Scalar Integral Uncertainty NumberFlux Electron Integral Flux, Spectrograms Time series defined by using: EPOCH mep_ele_flux Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 Spectrogram E12.2 2 4 -1.0e+31 Electron Scalar Integral NumberFlux Electron Integral Flux, Percent Error, Spectrograms Time series defined by using: EPOCH mep_ele_flux_err Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 40.0000, 130.000, 287.000, 612.000] PT2S Spectrogram E12.2 2 4 -1.0e+31 Electron Scalar Integral Uncertainty NumberFlux Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV Time series defined by using: EPOCH mep_ele_flux_t_stacke1 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >40 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Integral NumberFlux Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV Time series defined by using: EPOCH mep_ele_flux_t_stacke2 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >130 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Integral NumberFlux Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV Time series defined by using: EPOCH mep_ele_flux_t_stacke3 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >287 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Integral NumberFlux Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV Time series defined by using: EPOCH mep_ele_flux_t_stacke4 Medium Energy Proton Detector, MEPED, Electron Integral Flux, 0#176; and 90#176; Telescopes, >612 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_ele_flux. PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 E12.2 2 4 -1.0e+31 Electron Scalar Integral NumberFlux Electron Integral Flux, Energies mep_ele_int_energies Medium Energy Proton Detector, MEPED, Electron Integral Flux, Energies, >40 keV to >612 keV PT2S keV 1.60218e-16>J E12.4 4 Element 1 1 Element 2 2 Element 3 3 Element 4 4 30.0 800.0 -1.0e+31 Electron Scalar Energy MEPED Telescope Directions mep_telescopes Medium Energy Proton Detector, MEPED, Telescope Directions, 0#176; and 90#176; Telescopes PT2S E12.2 LinearScale 2 Element 1 1 Element 2 2 0.0 90.0 -1.0e+31 Other Proton Differential Flux, 0#176; Telescope Time series defined by using: EPOCH mep_pro_flux_stackt0 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, 39 keV to 2723 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, 0#176; Telescope, Percent Error Time series defined by using: EPOCH mep_pro_flux_err_stackt0 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; Telescope, Percent Error, 39 keV to 2723 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. PT2S E12.2 2 5 -1.0e+31 Proton Scalar Differential Uncertainty NumberFlux Proton Differential Flux, 90#176; Telescope Time series defined by using: EPOCH mep_pro_flux_stackt90 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, 39 keV to 2723 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, 90#176; Telescope, Percent Error Time series defined by using: EPOCH mep_pro_flux_err_stackt90 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 90#176; Telescope, Percent Error, 39 keV to 2723 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux_err. PT2S E12.2 2 5 -1.0e+31 Proton Scalar Differential Uncertainty NumberFlux Proton Differential Flux, Spectrograms, >40 keV to >612 keV Time series defined by using: EPOCH mep_pro_flux Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [ 39.0000, 115.000, 332.000, 1105.00, 2723.00] PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 Spectrogram E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, Percent Error, Spectrograms Time series defined by using: EPOCH mep_pro_flux_err Column 1 Labels: [ 0.00000, 90.0000] Column 2 Labels: [MEP_39keV_PrtnDiffFlux,MEP_115keV_PrtnDiffFlux,MEP_332keV_PrtnDiffFlux,MEP_1105keV_PrtnDiffFlux,MEP_2723keV_PrtnDiffFlux] PT2S Spectrogram E12.2 2 5 -1.0e+31 Proton Scalar Differential Uncertainty NumberFlux Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV Time series defined by using: EPOCH mep_pro_flux_t_stacke1 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 39 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV Time series defined by using: EPOCH mep_pro_flux_t_stacke2 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 115 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV Time series defined by using: EPOCH mep_pro_flux_t_stacke3 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 332 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV Time series defined by using: EPOCH mep_pro_flux_t_stacke4 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 1105 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV Time series defined by using: EPOCH mep_pro_flux_t_stacke5 Medium Energy Proton Detector, MEPED, Proton Differential Flux, 0#176; and 90#176; Telescopes, 2723 keV This parameter is virtual. It is calculated by calling the function MAKE_STACK_ARRAY with the following input parameters: mep_pro_flux. PT2S (cm^2 s sr keV)^-1 6.24161e19>(m^2 s sr J)^-1 E12.2 2 5 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, Energies mep_pro_diff_energies Medium Energy Proton Detector, MEPED, Proton Differential Flux, Energies, 39 keV to 2723 keV PT2S keV 1.60218e-16>J E12.4 5 Element 1 1 Element 2 2 Element 3 3 Element 4 4 Element 5 5 30.0 4000.0 -1.0e+31 Proton Scalar Energy Proton Integral Flux, 0#176; and 90#176; Telescopes Time series defined by using: EPOCH mep_pro_flux_p6 Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, >6174 keV PT2S (cm^2 s sr)^-1 1e4>(m^2 s sr)^-1 E12.2 2 Element 1 1 0.00000 Element 2 2 90.0000 0.0 1.0e+10 -1.0e+31 Proton Scalar Integral NumberFlux Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error Time series defined by using: EPOCH mep_pro_flux_p6_err Medium Energy Proton Detector, MEPED, Proton Integral Flux, 0#176; and 90#176; Telescopes, Percent Error, >6174 keV PT2S E12.2 2 Element 1 1 0.00000 Element 2 2 90.0000 1.0e-05 1.0e+10 -1.0e+31 Proton Scalar Integral Uncertainty NumberFlux Proton Differential Flux, Omnidirectional Telescope Time series defined by using: EPOCH mep_omni_flux_stack Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_flux. PT2S (cm^2 s sr MeV)^-1 6.24161e22>(m^2 s sr J)^-1 E12.2 3 MEP_Omni_25keV_PrtnDiffFlux 1 25.0000 MEP_Omni_50keV_PrtnDiffFlux 2 50.0000 MEP_Omni_100keV_PrtnDiffFlux 3 100.000 0.0 1.0e+10 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, Omnidirectional Telescope, Spectrograms in Energy Time series defined by using: EPOCH mep_omni_flux Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, as Spectrograms in Energy, at Center Energies 25 MeV, 50 MeV, and 100 MeV PT2S (cm^2 s sr MeV)^-1 6.24161e22>(m^2 s sr J)^-1 Spectrogram E12.2 3 MEP_Omni_25keV_PrtnDiffFlux 1 25.0000 MEP_Omni_50keV_PrtnDiffFlux 2 50.0000 MEP_Omni_100keV_PrtnDiffFlux 3 100.000 0.0 1.0e+10 -1.0e+31 Proton Scalar Differential NumberFlux Proton Differential Flux, Omnidirectional Telescope, Energies mep_omni_energies Medium Energy Proton Detector, MEPED, Proton Differential Flux, Omnidirectional Telescope, at Center Energies 25 MeV, 50 MeV, and 100 MeV PT2S MeV 1.60218e-13>J E12.4 3 Element 1 1 Element 2 2 Element 3 3 20.0 200.0 -1.0e+31 Proton Scalar Energy Fit Flag for Proton Differential Flux, Fit Flag Time series defined by using: EPOCH mep_omni_flux_flag_fit Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Fit Flag PT2S TimeSeries MEPED_OmniFitFlag I4 LinearScale 0 1 255 Other Fit Flag for Proton Differential Flux, Iteration Limit Time series defined by using: EPOCH mep_omni_flux_flag_iter_lim Medium Energy Proton Detector, MEPED, Fit Flag for Proton Differential Flux, Iteration Limit PT2S TimeSeries mep_omni_flux_flag_iter_lim I4 LinearScale 0 1 255 Other Omnidirectional Gamma Time series defined by using: EPOCH mep_omni_gamma_stack Medium Energy Proton Detector, MEPED, Omnidirectional Gamma This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mep_omni_gamma. PT2S E12.2 LinearScale 3 MEP_25keV_OmniGamma 1 25.0000 MEP_50keV_OmniGamma 2 50.0000 MEP_100keV_OmniGamma 3 100.000 -50.0 1.0e+10 -1.0e+31 Proton Scalar Energy Omnidirectional Gamma, Spectrograms Time series defined by using: EPOCH mep_omni_gamma Medium Energy Proton Detector, MEPED, Omnidirectional Gamma, as Spectrograms in Energy PT2S Spectrogram E12.2 LinearScale 3 MEP_25keV_OmniGamma 1 25.0000 MEP_50keV_OmniGamma 2 50.0000 MEP_100keV_OmniGamma 3 100.000 -50.0 1.0e+10 -1.0e+31 Proton Scalar Energy Pitch Angle at the Satellite, 0° Telescope Time series defined by using: EPOCH meped_alpha_0_sat Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 0° Telescope PT2S ° 0.0174532925>rad TimeSeries meped_alpha_0_sat E12.2 LinearScale 0.0 180.0 -1.0e+31 Other Pitch Angle at the Satellite, 90° Telescope Time series defined by using: EPOCH meped_alpha_90_sat Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite, 90° Telescope PT2S ° 0.0174532925>rad TimeSeries meped_alpha_90_sat E12.2 LinearScale 0.0 180.0 -1.0e+31 Other Pitch Angle at the Satellite Footpoint, 0° Telescope Time series defined by using: EPOCH meped_alpha_0_foot Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 0° Telescope PT2S ° 0.0174532925>rad TimeSeries meped_alpha_0_foot E12.2 LinearScale 0.0 180.0 -1.0e+31 Other Pitch Angle at the Satellite Footpoint, 90° Telescope Time series defined by using: EPOCH meped_alpha_90_foot Medium Energy Proton Detector, MEPED, Pitch Angle at the Satellite Footpoint, 90° Telescope PT2S ° 0.0174532925>rad TimeSeries meped_alpha_90_foot E12.2 LinearScale 0.0 180.0 -1.0e+31 Other MEPED IFC Flag Time series defined by using: EPOCH mep_ifc_on Medium Energy Proton Detector, MEPED, In-Flight Calibrator, IFC Flag: 0=Off, 1=On PT2S TimeSeries mep_IFC_on I4 LinearScale 0 1 255 InstrumentMode Satellite Designation ID Time series defined by using: EPOCH satid Satellite Designation Identifier PT2S TimeSeries satID I4 LinearScale 1.0 40.0 -2.14748e+09 Other Satellite Orbital Direction Time series defined by using: EPOCH sat_direction Satellite Orbital Direction: 0=North, 1=South PT2S TimeSeries sat_direction I4 LinearScale 0.0 1.0 -2.14748e+09 Other Satellite Geodetic Altitude Time series defined by using: EPOCH alt Satellite Geodetic, WGS84, Altitude PT2S km 1e3>m TimeSeries Altitude F7.1 LinearScale 800.0 1000.0 -1.0e+31 Scalar Positional Satellite Geodetic Latitude Time series defined by using: EPOCH lat Satellite Geodetic, WGS84, Latitude PT2S ° 0.0174532925>rad Spherical WGS84 TimeSeries GeodLat F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Satellite Geodetic Longitude Time series defined by using: EPOCH lon Satellite Geodetic, WGS84, Longitude PT2S ° 0.0174532925>rad Spherical WGS84 TimeSeries GeodLon F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Satellite Magnetic Latitude Time series defined by using: EPOCH mag_lat_sat Satellite Magnetic, MAG, Latitude PT2S ° 0.0174532925>rad Spherical MAG TimeSeries MagLat_sat F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Satellite Magnetic Longitude Time series defined by using: EPOCH mag_lon_sat Satellite Magnetic, MAG, Longitude PT2S ° 0.0174532925>rad Spherical MAG TimeSeries MagLon_sat F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Satellite L Shell, IGRF Time series defined by using: EPOCH l_igrf Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model PT2S TimeSeries L_IGRF F7.2 LinearScale 0.0 20.0 -1.0e+31 Scalar Positional Satellite Magnetic Local Time Time series defined by using: EPOCH mlt Satellite Magnetic Local Time, MLT, in Hours PT2S h 3600>s TimeSeries MLT F7.2 LinearScale 0.0 25.0 -1.0e+31 Scalar Positional Footpoint Geodetic Latitude Time series defined by using: EPOCH geod_lat_foot Geodetic, WGS84, Latitude, Footpoint of Field Line PT2S ° 0.0174532925>rad Spherical WGS84 TimeSeries GeodLat_foot F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Footpoint Geodetic Longitude Time series defined by using: EPOCH geod_lon_foot Geodetic, WGS84, Longitude, Footpoint of Field Line PT2S ° 0.0174532925>rad Spherical WGS84 TimeSeries GeodLon_foot F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Footpoint AACGM Latitude Time series defined by using: EPOCH aacgm_lat_foot Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line PT2S ° 0.0174532925>rad Spherical CGM TimeSeries AACGM_Lat_foot F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Footpoint AACGM Longitude Time series defined by using: EPOCH aacgm_lon_foot Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line PT2S ° 0.0174532925>rad Spherical CGM TimeSeries AACGM_Lon_foot F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Footpoint Magnetic Latitude Time series defined by using: EPOCH mag_lat_foot Magnetic, MAG, Latitude, Footpoint of Field Line PT2S ° 0.0174532925>rad Spherical MAG TimeSeries MagLat_foot F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Footpoint Magnetic Longitude Time series defined by using: EPOCH mag_lon_foot Magnetic, MAG, Longitude, Footpoint of Field Line PT2S ° 0.0174532925>rad Spherical MAG TimeSeries MagLon_foot F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Satellite Magnetic Field Radial Component Time series defined by using: EPOCH br_sat Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model PT2S nT 1e-9>T Spherical CGM TimeSeries Br_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Magnitude Magnetic Satellite Magnetic Field Theta Component Time series defined by using: EPOCH bt_sat Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model PT2S nT 1e-9>T Spherical CGM TimeSeries Bt_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.AzimuthAngle Magnetic Satellite Magnetic Field Phi Component Time series defined by using: EPOCH bp_sat Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model PT2S nT 1e-9>T Spherical CGM TimeSeries Bp_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.ElevationAngle Magnetic Satellite Total Magnetic Field Time series defined by using: EPOCH btot_sat Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model PT2S nT 1e-9>T TimeSeries Btot_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Total Magnetic Magnetic Field Radial Component, Footpoint Time series defined by using: EPOCH br_foot Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line PT2S nT 1e-9>T Spherical CGM TimeSeries Br_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Magnitude Magnetic Magnetic Field Theta Component, Footpoint Time series defined by using: EPOCH bt_foot Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line PT2S nT 1e-9>T Spherical CGM TimeSeries Bt_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.AzimuthAngle Magnetic Magnetic Field Phi Component, Footpoint Time series defined by using: EPOCH bp_foot Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line PT2S nT 1e-9>T Spherical CGM TimeSeries Bp_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.ElevationAngle Magnetic Total Magnetic Field, Footpoint Time series defined by using: EPOCH btot_foot Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line PT2S nT 1e-9>T TimeSeries Btot_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Total Magnetic Satellite Position, X Component, IGRF Time series defined by using: EPOCH bx_sat Satellite Position, X Component, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model PT2S nT 1e-9>T Cartesian CGM TimeSeries Bx_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Component.I Positional Satellite Position, Y Component, IGRF Time series defined by using: EPOCH by_sat Satellite Position, Y Component, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model PT2S nT 1e-9>T Cartesian CGM TimeSeries By_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Component.J Positional Satellite Position, Z Component, IGRF Time series defined by using: EPOCH bz_sat Satellite Position, Z Component, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model PT2S nT 1e-9>T Cartesian CGM TimeSeries Bz_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Component.K Positional Satellite Altitude, Text Label Time series defined by using: EPOCH alt_text Satellite Geodetic Altitude, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: alt. PT2S km 1e3>m Altitude F7.1 LinearScale 800.0 1000.0 -1.0e+31 Scalar Positional Geodetic Latitude, Text Label Time series defined by using: EPOCH lat_text Satellite Geodetic Latitude, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lat. PT2S ° 0.0174532925>rad Spherical WGS84 GeodLat F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Geodetic Longitude, Text Label Time series defined by using: EPOCH lon_text Satellite Geodetic Longitude, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: lon. PT2S ° 0.0174532925>rad Spherical WGS84 GeodLon F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional L Shell, IGRF, Text Label Time series defined by using: EPOCH l_igrf_text Satellite L Shell, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: l_igrf. PT2S L_IGRF F7.2 LinearScale 0.0 20.0 -1.0e+31 Scalar Positional Magnetic Local Time, Text Label Time series defined by using: EPOCH mlt_text Satellite Magnetic Local Time, MLT in Hours, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mlt. PT2S h 3600>s MLT F4.1 LinearScale 0.0 25.0 -1.0e+31 Scalar Positional Footpoint Geodetic Latitude, Text Label Time series defined by using: EPOCH geod_lat_foot_text Geodetic, WGS84, Latitude, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lat_foot. PT2S ° 0.0174532925>rad Spherical WGS84 GeodLat_foot F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Footpoint Geodetic Longitude, Text Label Time series defined by using: EPOCH geod_lon_foot_text Geodetic, WGS84, Longitude, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: geod_lon_foot. PT2S ° 0.0174532925>rad Spherical WGS84 GeodLon_foot F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Footpoint AACGM Latitude, Text Label Time series defined by using: EPOCH aacgm_lat_foot_text Altitude Adjusted Corrected Geomagnetic, AACGM, Latitude, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lat_foot. PT2S ° 0.0174532925>rad Spherical CGM AACGM_Lat_foot F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Footpoint AACGM Longitude, Text Label Time series defined by using: EPOCH aacgm_lon_foot_text Altitude Adjusted Corrected Geomagnetic, AACGM, Longitude, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: aacgm_lon_foot. PT2S ° 0.0174532925>rad Spherical CGM AACGM_Lon_foot F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Footpoint Magnetic Latitude, Text Label Time series defined by using: EPOCH mag_lat_foot_text Magnetic, MAG, Latitude, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lat_foot. PT2S ° 0.0174532925>rad Spherical MAG MagLat_foot F7.2 LinearScale -90.0 90.0 -1.0e+31 DirectionAngle.AzimuthAngle Positional Footpoint Magnetic Longitude, Text Label Time series defined by using: EPOCH mag_lon_foot_text Magnetic, MAG, Longitude, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: mag_lon_foot. PT2S ° 0.0174532925>rad Spherical MAG MagLon_foot F7.2 LinearScale 0.0 360.0 -1.0e+31 DirectionAngle.ElevationAngle Positional Satellite Magnetic Field Radial Component, Text Label Time series defined by using: EPOCH br_sat_text Satellite Magnetic Field Radial Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_sat. PT2S nT 1e-9>T Spherical CGM Br_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Magnitude Magnetic Satellite Magnetic Field Theta Component, Text Label Time series defined by using: EPOCH bt_sat_text Satellite Magnetic Field Theta Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_sat. PT2S nT 1e-9>T Spherical CGM Bt_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.AzimuthAngle Magnetic Satellite Magnetic Field Phi Component, Text Label Time series defined by using: EPOCH bp_sat_text Satellite Magnetic Field Phi Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_sat. PT2S nT 1e-9>T Spherical CGM Bp_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.ElevationAngle Magnetic Satellite Total Magnetic Field, Text Label Time series defined by using: EPOCH btot_sat_text Satellite Magnetic Field Total Component, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_sat. PT2S nT 1e-9>T Btot_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Total Magnetic Magnetic Field Radial Component, Footpoint, Text Label Time series defined by using: EPOCH br_foot_text Magnetic Field Radial, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: br_foot. PT2S nT 1e-9>T Spherical CGM Br_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Magnitude Magnetic Magnetic Field Theta Component, Footpoint, Text Label Time series defined by using: EPOCH bt_foot_text Magnetic Field Theta, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bt_foot. PT2S nT 1e-9>T Spherical CGM Bt_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.AzimuthAngle Magnetic Magnetic Field Phi Component, Footpoint, Text Label Time series defined by using: EPOCH bp_foot_text Magnetic Field Phi, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bp_foot. PT2S nT 1e-9>T Spherical CGM Bp_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 DirectionAngle.ElevationAngle Magnetic Total Magnetic Field, Footpoint, Text Label Time series defined by using: EPOCH btot_foot_text Magnetic Field Total, CGM, Coordinates, from the International Geomagnetic Reference Field, IGRF, Footpoint of Field Line, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: btot_foot. PT2S nT 1e-9>T Btot_foot E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Scalar Total Magnetic Satellite Position, X Component, IGRF, Text Label Time series defined by using: EPOCH bx_sat_text Satellite Position, X Component, Corrected Geomagnetic, CGM, Coordinates, Towards Earth, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bx_sat. PT2S nT 1e-9>T Cartesian CGM Bx_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Component.I Positional Satellite Position, Y Component, IGRF, Text Label Time series defined by using: EPOCH by_sat_text Satellite Position, Y Component, Corrected Geomagnetic, CGM, Coordinates, Opposite Velocity Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: by_sat. PT2S nT 1e-9>T Cartesian CGM By_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Component.J Positional Satellite Position, Z Component, IGRF, Text Label Time series defined by using: EPOCH bz_sat_text Satellite Position, Z Component, Corrected Geomagnetic, CGM, Coordinates, X ⨯ Y Direction, from the International Geomagnetic Reference Field, IGRF, Model, Text Label This parameter is virtual. It is calculated by calling the function ALTERNATE_VIEW with the following input parameters: bz_sat. PT2S nT 1e-9>T Cartesian CGM Bz_sat E12.2 LinearScale -100000.0 100000.0 -1.0e+31 Component.K Positional